DE2540465A1 - BOWDEN TRAIN - Google Patents

Description

Dipl-ing. W, Dafclke DipL-lng. H.-}. lips Patent attorney

506 Refrath near Cologne Frankenforsief Strasse 137

September 10, 1975 L / K

Teleflex Incorporated

North Wales, Pennsylvania / USA

ⁿ Bowden cable ^M

The invention relates to a Bowden cable with a flexible jacket, a core mounted in the jacket for axial movement, friction-reducing elements to facilitate the movement of the soul and running pieces between the friction-reducing elements and the flexible jacket.

With trains of this kind, it is important to have a form-fitting rolling effect between the friction-reducing elements and the

6098U / 0370

Maintain soul. A form-fitting rolling effect between friction-reducing elements and the soul provides one maximum efficiency in the transmission of motion. The loss of a positive rolling effect often happens when the bowden cable is bent. This is mainly due to the deformation of the elements in the train and on the difference in the radius of curvature between the parts on the outside and inside of the arch.

The invention provides a Bowden cable with running pieces, which act as a spring, in such a way that the friction-reducing elements be pressed into a form-fitting, rolling attack on the soul. The running pieces accordingly have a running section on, which acts on the friction-reducing elements, also resilient means for pressing the running section to the friction-reducing elements Elements and to push the friction-reducing elements towards the soul. The resilient means include in the preferred Embodiment of the invention two back bends that extend inward from the outer edges of the tread, wherein the back bends are arranged at a distance from the running section and engage the jacket.

The invention is explained in more detail below on the basis of exemplary embodiments with reference to the drawing. In the Drawing are:

- 3 609814/0370

Fig. 1 is a partially sectioned view of an embodiment of a Bowden cable according to the invention,

FIG. 2 shows a detail in section of the Bowden cable shown in FIG. 1,

Fig. 3 is a section on the line 3-3 of Fig. 2, Fig. 4 is a section on the line 4-4 of Fig. 1 and

Fig. 5 is a longitudinal section showing a variant of the invention Bowden cable shows.

A Bowden cable according to the invention is shown at 10. The bowden cable has a jacket 12, which consists of a hollow, flexible enveloping piece 14, flexible, load-bearing means 16 consists of a number of helically wound wire parts 18, and a flexible sheath 20, which the wire parts 18 surrounds.

Tubular end pieces, such as an end fitting 22, are attached to both ends of the shell 12. The end piece 22 is hollow cylindrical and has external threads 24 and a nut 26 to fasten the end piece 22 to a partition wall or the like. Because both ends of the Bowden cable are essentially identical

- 4 609814/0370

only one end is shown. In the illustrated embodiment, the connection between the end piece 22 and the Jacket 12 is effected by providing an inner molded sleeve 28 in the recessed end of the end piece 22. This creates a annular space between the form sleeve 28 and the inner wall of the end piece 22, into which the wire parts 18 extend. As shown in FIG. 1, the casing 20 and the casing part 14 lie against the end piece 22 and against the molded sleeve 28, respectively. A mandrel (not shown) is inserted into the mold sleeve 28, and the end piece 22 is deformed so that a relative permanent connection between the end piece 22, the wire parts 18 and the molded sleeve 28 is created. A sleeve piece 30 is then arranged around the connection. Note that other methods can be used to lift the load To connect wire parts 18 to the end piece 22. All that is required is that the connection be one that does the transmission of workers from the wire parts 18 to the end piece 22 for reaction. In other words, the Sheath 12 is reinforced by means such as wire members 18 so that it can carry the functional loads. The connection between the wire parts 18 must then be able to transfer loads to the end piece 22 can.

A movement-transmitting core 32 is for axial movement stored within the shell 12. The ends of the soul are 32

609814/0370

connected to an operating rod 34 by suitable means, for example two pins 36 extending through the operating rod 34 and core 32. The operating rod extends out of the end piece 22 and is for attachment either on an operating element or on one served element set up. To this end, the end of the operating rod 34 may be externally threaded 38 or otherwise Means for attachment may be provided.

In order to facilitate an axial movement of the core 32, the Bowden cable is equipped with a number of friction-reducing elements 40 provided, consisting of a number of ball bearings 42, which are held at a distance by holder 44, consisting of a standard ball holder. As shown, the core 32 has suitable grooves 46 in which the ball bearings 42 to run. The purpose of the friction-reducing elements 40 is of course to facilitate axial movement of the core 32, by reducing friction.

The Bowden cable also includes running pieces 48 which have a running surface for the ball bearings 42 of the friction-reducing elements 40. As shown in FIGS. 2 and 5, these are traversers 48 not anchored, and they are freely axially movable with respect to the shell 12. The running pieces 48 are thus no pull or Subjected to compressive forces when the jacket 12 is flexed.

609814/0370

In particular, as can be seen particularly from FIG. 2, the running pieces 48 end within the end pieces 22. The ends of the Running pieces 48 are supported at a radial distance with respect to the core 32 by support means, consisting of shoes 50. In order to establish the connection between the running pieces 48 and the shoes 50, each shoe 50 is provided with a pin 52, the piece 48 extends into a hole 54 in the barrel. The undersides of the shoes 50 slide against the core 32. The ends of the running pieces 48 are thus prevented from to sag towards the soul 32 and possibly to disturb its axial movement.

In order to prevent the running pieces 48 from coming out of the end piece 22 wander out, the end piece 22 is provided with four peripherally arranged depressions 56. These depressions 56 only act as stops to hold the running pieces 48 within the shell 12.

In the case of the Bowden cable described, the running pieces 48 do not need to transfer any loads to the end pieces 22. For this reason it is not necessary for them to be anchored or otherwise be in a force-transmitting relationship with the end pieces 22. The load-transmitting or load-bearing function is achieved by the load-bearing means 16 which reinforce the jacket and consist of the wire parts 18. The helical

-7 -

6098U / 0370

Wrapped wire parts 18 therefore form a load path between the end pieces 22. Furthermore, the wire parts 18 in one Fead much larger than "anchored" running pieces and bend out. Bending of the Bowden cable is therefore relatively not inhibited by the running pieces 48. As a result of this enables the use of the floating runners 48 and wire members 18 provided a greater amount of flex than bowden cables with stationary or anchored running pieces.

The running pieces 48 comprise a running part 58, which in cross section Is arcuate to form a raceway for the ball bearings 42. The running pieces 48 further comprise spring means for Pressing the barrel part 48 to the ball bearings 42, and consequently the ball bearings 42 are pressed towards the core 32. This therefore provides a form-fitting rolling effect between the Ball bearings 42 and the core 32 safe, and this leads to maximum efficiency in the transmission of motion.

The resilient means comprise two back bends 60 which extend inwardly from the outer edges of the tread 58. The bends 60 are arranged at a distance from the running section 58 and lie against the jacket 12. In detail, lie the back bends 60 essentially parallel to the running section 58. The back bends 60 are also formed in an arc shape and generally correspond in shape to the curvature of the jacket

- 8 609814/0370

12. The curvature of the back bends 60 thus corresponds almost exactly to the curvature of the inside of the flexible envelope part 14.

As a result of the elasticity of the back bends 60, the back bends push against the flexible enveloping part 14 in order to move the ball bearings 42 into a form-fitting unwinding system on the core 32 to press. In other words, the carriage 48 acts as a Spring piece to preload the ball bearings 42. The bends 60 are thus to a certain extent in the mounted position sprung inward, as shown in FIGS. 3 and 4.

If the jacket 12 is bent, the back bends 60 push the Running pieces 48 continue the ball bearings 42 towards the core 32 in order to facilitate a positive rolling effect between them.

609814/0370

Claims (15)

Claims M. j Bowden cable with a flexible jacket, a movement-transmitting core which is mounted for axial movement within the jacket, friction-reducing means for resting on the core to facilitate the movement of the same, holding means for holding the friction-reducing agent and one between the friction-reducing agents and the Sheath-seated running piece, characterized in that the running piece (48) comprises a running part (58) which engages the friction-reducing means (42), and resilient means (60) which the running part (58) to the friction-reducing means (42) and press the friction-reducing means (42) towards the core (32). 2. Bowden cable according to claim 1, characterized e i c h ne t that the resilient means (60) comprise two back bends extending from the outer edges of the Running section (58) extend inwards and are arranged at a distance from the running section (58) and are attached to the casing (12) attack. 3. Bowden cable according to claim 2, characterized in that that the back bends (60) are substantially parallel to the running section (58). - 10 60981 4/0370 4. Bowden cable according to claim 2, characterized in that that the backbends (60) are arcuate and have a shape generally corresponding to the curvature of the jacket (12). 5. Bowden cable according to claim 4, characterized e i c h η e t that a substantial part of the back bends (60) in direct contact with the jacket (12) stands. 6. Bowden cable according to claim 5, characterized z e i c h ne t that the running section (58) is arcuate. 7. Bowden cable; according to claim 6, characterized marked e i c h ne t that the back bends (60) are essentially parallel to the running section (58). 8. Bowden cable according to claim 2, characterized in that that he has hollow cylindrical end pieces (22) at both ends of the jacket (12) and flexible, load-bearing Means (18) which enclose part of the shell (12) and are attached to the end pieces (22) are. - 11 609814/0370 9. Bowden cable according to claim 8, characterized by support means to support the ends of the Barrel (48). 10. Bowden cable according to claim 9, characterized by operating rods (34) attached to the ends of the Core (32) are attached and extend out of the hollow cylindrical end pieces (22). 11. Bowden cable according to claim 10, characterized in that that the support means comprise a portion of the operating rods (34). 12. Bowden cable according to claim 9 »characterized in that that the support means comprise a shoe (50) which is attached to the running piece (48) and slidingly attacks the soul (32). 13 · Bowden cable according to claim 9 »marked thereby e i c h ne t that the load-bearing means comprise a number of helically wound wire parts (18). 14. Bowden cable according to claim 13 »characterized in that that the sheath (12) comprises a flexible sheath part (14), which from the wire parts (18) is enclosed. - 12 - 60981 4/0370 15. Bowden cable according to claim 14, characterized e i ch net that the sheath (12) comprises a flexible sheath (20) which surrounds the wire parts (18). 609814/0370